Electric motor and stator cooling apparatus
Abstract
An electric motor can include a stator body defining fluid channels extending axially for fluid communication between axial ends of the stator body. Conductive windings can form first loops extending axially outward from the first end of the stator body and second loops extending axially outward from the second end of the stator body. A first cap can be coupled to the first end of the stator body and can include a first wall. The first wall can be between the first loops and the channels. Pins can extend from a side of the first wall that is opposite the first loops. The second cap can be coupled to the second end of the stator body and include a second wall. The second wall can be between the second loops and the channels. Pins can extend from a side of the second wall that is opposite the second loops.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1. An electric motor comprising:
a stator body defining a rotor bore and a plurality of fluid channels;
a plurality of electrically conductive windings forming a plurality of first winding loops extending axially outward from a first axial end of the stator body;
a first end cap coupled to the first axial end of the stator body, the first end cap including a first wall and a plurality of first pins, the first wall disposed between the first winding loops and the fluid channels, the first pins extending from a side of the first wall that is opposite the first winding loops; and
wherein the first pins extend radially outward from the first wall; and
wherein the first pins extend radially outward of a radially inward-most part of the fluid channels.
2. The electric motor of claim 1 , further comprising a second end cap, wherein the plurality of electrically conductive windings form a plurality of second winding loops extending axially outward from a second axial end of the stator body, wherein the second end cap is coupled to the second axial end of the stator body and includes a second wall and a plurality of second pins, the second wall being disposed between the second winding loops and the fluid channels, the second pins extending from a side of the second wall that is opposite the second winding loops, and wherein the second pins extend radially outward from the second wall and extend radially outward of a radially inward-most part of the fluid channels.
3. An electric motor comprising:
a stator body defining a rotor bore and a plurality of fluid channels;
a plurality of electrically conductive windings forming a plurality of first winding loops extending axially outward from a first axial end of the stator body;
a first end cap coupled to the first axial end of the stator body, the first end cap including a first wall and a plurality of first pins, the first wall disposed between the first winding loops and the fluid channels, the first pins extending from a side of the first wall that is opposite the first winding loops; and
wherein the first winding loops extend radially outward of a radially inward-most part of the fluid channels; and
wherein the first wall includes a first annular body and wherein the first pins extend axially from the first annular body in a direction toward the stator body.
4. The electric motor of claim 3 , wherein the first winding loops are encased in a thermally conductive but electrically insulating resin that contacts the first wall.
5. The electric motor of claim 3 , wherein the first wall includes a second annular body and wherein the first pins extend axially from the second annular body in the direction away from the stator body.
6. The electric motor of claim 3 , further comprising a second end cap coupled to a second axial end of the stator body, wherein the plurality of electrically conductive windings form a plurality of second winding loops that extend axially outward from the second axial end of the stator body, wherein the second end cap includes a second wall and a plurality of second pins, the second wall being disposed radially between the second winding loops and the fluid channels, the second pins extending from a side of the second wall that is opposite the second winding loops, the second pins extending into a flow path into or exiting the fluid channels in the stator body.
7. The electric motor of claim 6 , wherein the second wall includes a third annular body, the second pins extending axially from the third annular body in a direction toward the stator body.
8. The electric motor of claim 7 , wherein the second wall includes a fourth annular body, wherein the second pins extend axially from the fourth annular body in the direction away from the stator body.
9. The electric motor of claim 6 , wherein the second wall includes a third annular body and a fourth annular body coupled to the third annular body to define a second winding cavity, the second winding loops being disposed within the second winding cavity, the second pins extending axially from the second annular body in a direction away from the stator body.
10. An electric motor comprising:
a stator body defining a rotor bore and a plurality of fluid channels;
a plurality of electrically conductive windings forming a plurality of first winding loops extending axially outward from a first axial end of the stator body;
a first end cap coupled to the first axial end of the stator body, the first end cap including a first wall and a plurality of first pins, the first wall disposed between the first winding loops and the fluid channels, the first pins extending from a side of the first wall that is opposite the first winding loops; and
wherein the first winding loops extend radially outward of a radially inward-most part of the fluid channels; and
wherein the first wall includes a first annular body and a second annular body coupled to the first annular body to define a first winding cavity, the first winding loops being disposed within the first winding cavity.
11. The electric motor of claim 10 , wherein the first winding loops are encased in a thermally conductive but electrically insulating resin that contacts the first wall.
12. The electric motor of claim 10 , wherein the first pins extend axially in the direction toward the stator body from the first annular body, or the second annular body in a direction away from the stator body.
13. The electric motor of claim 10 , further comprising a second end cap coupled to a second axial end of the stator body, wherein the plurality of electrically conductive windings form a plurality of second winding loops that extend axially outward from the second axial end of the stator body, wherein the second end cap includes a second wall and a plurality of second pins, the second wall being disposed in a radial direction from a central axis of the rotor bore between the second winding loops and the fluid channels, the second pins extending from a side of the second wall that is opposite the second winding loops, the second pins extending into a flow path into or exiting the fluid channels in the stator body.
14. The electric motor of claim 13 , wherein the second wall includes a third annular body and a fourth annular body coupled to the third annular body to define a second winding cavity, the second winding loops being disposed within the second winding cavity.
15. The electric motor of claim 14 , wherein the second pins extend axially in the direction toward the stator body from the third annular body and axially in the direction away from the stator body from the fourth annular body.
16. The electric motor of claim 15 , wherein the second wall includes a third annular body and a fourth annular body coupled to the third annular body to define a second winding cavity, the second winding loops being disposed within the second winding cavity, the second pins extending axially from the second annular body in a direction away from the stator body.
17. An electric motor comprising:
a stator body defining a rotor bore and a plurality of fluid channels;
a plurality of electrically conductive windings forming a plurality of first winding loops extending axially outward from a first axial end of the stator body; and
a first end cap coupled to the first axial end of the stator body, the first end cap including a first wall, the first end cap defining a first winding cavity separated from fluid communication with the fluid channels by the first wall, the first winding loops being disposed within the first winding cavity;
wherein the first winding loops extend radially outward of a radially inward-most part of the fluid channels.
18. The electric motor of claim 17 , wherein the first end cap includes a plurality of first pins that extend radially outward from the first wall.
19. The electric motor of claim 18 , wherein the first pins extend radially outward of a radially inward-most part of the fluid channels.
20. The electric motor of claim 17 , wherein the first end cap includes a plurality of first pins that extend from the first wall, wherein the first wall includes a first annular body and a second annular body coupled to the first annular body to define the first winding cavity, the first pins extending axially from at least one of: the first annular body in a direction toward the stator body, and the second annular body in a direction away from the stator body.Cited by (0)
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